ALMA Interferometer and Band 7 Cartridge B7 Cartridge designed, assembled and tested by: S. Mahieu, D. Maier (mixer team lead), B. Lazareff (now at IPAG) G. Celestin, J. Chalain, D. Geoffroy, F. Laslaz, Q. Moutote, M. Parioleau, G. Perrin, J. Reverdy. As well as contributions from SIS, mechanical and administration groups. 2-4 October 2011 ALMA Interferometer and Band 7 Cartridge, Kryo 2011 1
ALMA Project, some key parameters International collaboration between North America, Europe, East Asia and Chile. Manufacturing of a giant interferometer with 54 (12) 12 m (7 m) antennas at 5000m altitude in atacama (Chile) (~1.3 Billion $, 10% Rx, 65% antenna) Largest astronomical ground-based observatory on earth that will allow research into the physics of the cold universe (stars and planets formation) Wavelengths between 0.3 and 9.6 mm shared amongst 10 receiver bands. Baseline of 150 m to 16 km Angular resolution ~0.005 at the highest frequencies Should be operational end of 2013. Early science is about to start (end of 2011). 2-4 October 2011 ALMA Interferometer and Band 7 Cartridge, Kryo 2011 2
ALMA OSF & AOS The Operations Support Facility (OSF) antenna Assembly-Integration-Verification ifi i (AIV) activities. -> center of all scientific activities related to the daily operation of the JAO. -> central location for observatory maintenance and operations aspects. Array Operation Site: The AOS Technical Building houses the ALMA Correlator. Digitized signals received from the radio telescopes are processed here and further transmitted to the data storage facilities located at the OSF. 2-4 October 2011 ALMA Interferometer and Band 7 Cartridge, Kryo 2011 3
Cryogenic devices for ALMA The world-class project that uses the largest amount of cryogenically cooled active and passive devices (Mixer Chips, LNA, Isolators, etc..) Band Manufacturer Frequency Mixing Scheme Noise Temperature Cryo LNA Technology 1-31.3-45 GHz USB 26 K (SSB) 2 HEMT 2-67-90 GHz LSB 47 K (SSB) 2 HEMT 3 HIA 84-116 GHz 2SB 60 K (SSB) 4 SIS 4 NAOJ 125-163 GHz 2SB 82 K (SSB) 4 SIS 5** Chalmers 163-211 GHz 2SB 105 K (SSB) 4 SIS 6 NRAO 211-275 275 GHz 2SB 136 K (SSB) 4 SIS 7* IRAM 275-373 GHz 2SB 147 K (SSB) 4 SIS 8 NAOJ 385-500 GHz 2SB 292 K (SSB) 4 SIS 9 SRON/NOVA 602-720 GHz DSB 261 K (DSB) 2 SIS 10 NAOJ 787-950 GHz DSB 344 K (DSB) 2 SIS Total for 65 receivers 1820 * 370-373 GHz < 300K ** limited to 6 units 100% of the components are tested prior to integration at cold temperature (15K or 77K) 2-4 October 2011 ALMA Interferometer and Band 7 Cartridge, Kryo 2011 4
ALMA Cryostat (RAL-UK) One of the core components for the ALMA Front End that cools the inner components < 4K. Necessary for operating mm and sub-mm high sensitivity SIS mixers + cooling of other electronic components. Closed cycle cryocooler allows for long term (> 1 year) unattended operation Use of 15K and 90K shields to minimize the radiation heat load on the 4 K components. Top plate accommodates 10 vacuum windows allowing the incoming radio frequency (RF) signal to reach the cold optic components mounted on each cartridge. IR filters are also mounted on the inner shields to prevent IR radiation from entering and warming up the 4K stage. 2-4 October 2011 ALMA Interferometer and Band 7 Cartridge, Kryo 2011 5
ALMA Cryostat thermal links The individual receiver modules are known as cold cartridge assemblies. Thermal connection to each cartridge assembly heat sink stage is provided via a novel resistance thermally activated link arrangement that requires no permanent mechanical attachment. - No need to open the cryostat to swap receivers - Easy to maintain - Possibility to assemble and test receivers in different places 2-4 October 2011 ALMA Interferometer and Band 7 Cartridge, Kryo 2011 6
IRAM contribution to ALMA IRAM, amongst others is responsible for developing and manufacturing 73 ALMA band 7 (275-373 GHz) receivers The specifications that were put in place in the early 2000 have pushed the limits of the state of the art to date. The design challenges were overcome during the pre-production phase. During production phase, emphasis has been put on quality assurance, schedule and cost commitment, thanks to the elaboration of proper p test procedures and construction of dedicated automated test set. 2-4 October 2011 ALMA Interferometer and Band 7 Cartridge, Kryo 2011 7
Band 7 Cartridge overview 2-4 October 2011 ALMA Interferometer and Band 7 Cartridge, Kryo 2011 8
B7 Cartridge Sideband Separating Mixer 0.76mm Typical IV curve of a 1µm 2 Nb-Al-Alox-Nb Alox junction with a normal resistance of ~ 22.5 Ohms Double Side Band mixer (DSB) with its IF circuit Close view of the mixer chip mounted on 80 μm thick quartz DSB mixer 1 2SB mixer diagram RF input o RF 90 hybrid coupler In-phase LO coupler LO input o IF 90 hybrid coupler USB LSB load load DSB mixer 2 2-4 October 2011 ALMA Interferometer and Band 7 Cartridge, Kryo 2011 9
Thermal Analysis 1 Thermal budget had to be met, therefore contributions were calculated for: Wiring Local Oscillator waveguides HEMTs triplers IF coax Theoretical analysis and experiments on thermal shunts were also performed. 2-4 October 2011 ALMA Interferometer and Band 7 Cartridge, Kryo 2011 10
Thermal Analysis 2 Material choice: Diameter choice: 1 Optimum diameters 4K - 15K Electrical conductivities to thermal conductivities ratio iameter (mm) D 0.1 0.01 CuBe Brass 1 10 3 0.1 1 10 100 Manganin Copper 1 Current (ma) Heat dumped 4K < 15K Power (mw W) 0.1 0.01 1 10 3 0.1 1 10 100 Current (ma) 2-4 October 2011 ALMA Interferometer and Band 7 Cartridge, Kryo 2011 11
Thermal Shunts, Structure and Role Equivalent circuit Rw T(n) Rs T(n+1) T(n+1) Cross Section: Heat sinking on each cartridge stage using OFHC copper shunts Simple working up Reliable Technique e 2-4 October 2011 ALMA Interferometer and Band 7 Cartridge, Kryo 2011 12
Technical Choices Manganin wires for low power transport, shunted at each stage Brass wires for high power transport, shunted at each stage Wires diameter: 0.2mm LO waveguides: WR10 waveguides plated with 4 m gold IF coax: outer conductor in stainless steel, inner conductor in CuBe HEMTs on 4K stage 2-4 October 2011 ALMA Interferometer and Band 7 Cartridge, Kryo 2011 13
Thermal Budget 660mW 130mW 45mW 2-4 October 2011 ALMA Interferometer and Band 7 Cartridge, Kryo 2011 14
Thermal Stress Relief, WG Compliance 2-4 October 2011 ALMA Interferometer and Band 7 Cartridge, Kryo 2011 15
Tripler Brackets More Flexible for thermal diff. contraction + oblong holes The tripler brackets could be made even more flexible to minimize the axial force applied to the waveguide between 4K and tripler output. The maximum stress applied onto the guide is about 1/3 of the WG yield point. 2-4 October 2011 ALMA Interferometer and Band 7 Cartridge, Kryo 2011 16
HEMT Amplifier Support Thermalised at 4K to meet the amplitude stability specification 2-4 October 2011 ALMA Interferometer and Band 7 Cartridge, Kryo 2011 17
NAOJ (Japan) Test Cryostat To support developments of state-of-art cartridge-type receivers, NAOJ has fabricated cartridge test cryostats by modifying the ALMA cartridge-type cryostat. reliability, short cooling time and easy handling. The cryostat is cooled by a 3 stage GM cryocooler (Sumitomo RDK 3ST). 2-4 October 2011 ALMA Interferometer and Band 7 Cartridge, Kryo 2011 18
Validation Following test procedures on two dedicated automated test sets.
Integrated noise temperature over 4-8 GHz for 48 production cartridges (P0) 2-4 October 2011 ALMA Interferometer and Band 7 Cartridge, Kryo 2011 20
2D Scans 0 FarField Az cut 10 db 20 30 40 0 0.2 0.1 0 0.1 0.2 radians FarField Elcut 10 db 20 30 20 log NearPlot 40 0.2 0.1 0 0.1 0.2 radians B7 Production Cartridge #47 Near Field (left) and Far Field Azimuth and Elevation beam pattern Crosscuts (right) at 279 GHz. 2-4 October 2011 ALMA Interferometer and Band 7 Cartridge, Kryo 2011 21
Phase Stability Cart56 Phase Stability Test Results n Deviation Alla 1.E+00 5.E-01 0E+00 0.E+00 1 10 100 1000 Time (sec) P0-283-LSB P0-283-USB P0-323-LSB P0-323-USB P0-365-LSB P0-365-USB P1-283-LSB P1-283-USB P1-323-LSB P1-323-USB P1-365-LSB P1-365-USB 283 323 365 B7 Cartridge #56 Phase Stability Test Results. 2-4 October 2011 ALMA Interferometer and Band 7 Cartridge, Kryo 2011 22
56 B7 cartridges have been delivered Band 7 Cartridges PAI, SOW & Delivery dates ts Delivered Unit 59 57 55 53 51 49 47 45 43 41 39 37 35 33 31 29 27 25 23 21 19 17 15 13 11 9 Units Delivered PAI dates SOW dates PAS Dates 16-Feb-09 27-Apr-09 6-Jul-09 14-Sep-09 23-Nov-09 1-Feb-10 12-Apr-10 21-Jun-10 30-Aug-10 8-Nov-10 17-Jan-11 28-Mar-11 6-Jun-11 15-Aug-11 24-Oct-11 Dates 2-4 October 2011 ALMA Interferometer and Band 7 Cartridge, Kryo 2011 23
Conclusion IRAM is being involved in a unique project with great success Significant effort has been dedicated to the study of cryogenic aspects within the ALMA project by the RAL/NAOJ colleagues and the different cartridge manufacturers The band 7 cartridge production is well under control, within schedule and cost. ¾ of the cartridges have been assembled, tested and delivered to the project ahead of schedule and within cost. 2-4 October 2011 ALMA Interferometer and Band 7 Cartridge, Kryo 2011 24